Comparative efficacy of zonisamide and pregabalin as an adjunctive therapy in children with refractory epilepsy.

OBJECTIVE
Approximately one third of epileptic children are resistant to anticonvulsant drugs. This study evaluates the effectiveness, safety, and tolerability of pregabalin as adjunctive therapy in epileptic children relative to Zonisamide.


MATERIALS & METHODS
From April 2012 to November 2012,121 children were referred to Mofid Children's Hospital with intractable epilepsy and enrolled in the study. The patients were divided into two groups (A and B) randomly. Group A was treated with Zonisamide and group B was treated with Pregabalin in addition to prior medication. We assessed seizure frequency and severity during a 4-week interval from the beginning of the drug treatment and compared the efficacy of each in these two groups.


RESULTS
Group A consists of 61 patients, 26 (42.6%) girls, and35 (57.4%) boys with an age range from 1.5 months-14 years (mean, 73.9± 44.04 months). Group B consists of 60 patients, 31(51.7%) girls, 29 (48.3%) boys with an age range from 6 months-16 years (mean, 71±42.9 months). Age, gender, seizure onset, seizure frequency, seizure type, and previous antiepileptic medications showed that there was no significant difference between the groups (P>0.05). Zonisamide and pregabalin reduced more than 50% of seizure intensity in 40.2%; 45.8% of patients also had a seizure frequency decline between35.8-44.4%, respectively and there was no significant superiority between these two novel anticonvulsants (P>0.05).


CONCLUSION
In this survey both pregabalin and Zonisamide were impressive for seizure control in children with intractable epilepsy and well sustained with mild complications that were completely reversible.


Comparative Efficacy of Zonisamide and Pregabalin as an Adjunctive
Therapy in Children with Refractory Epilepsy regarding new AEDs utility in treatment of children with refractory epilepsy, the current assay was carried out to evaluate the effectiveness, safety, and tolerability of pregabalin as an adjunctive therapy relative to that of Zonisamide.

Materials & Methods
From April 2012 to November 2012,121 children were referred to Mofid Children's Hospital with intractable epilepsy (failure of seizure recovery in spite of two or more antiepileptic drugs) and were enrolled in the study. Exclusion criterion was hypersensitivity to anticonvulsants and having a neurodegenerative disease. All parents endorsed a written informed consent. The initial assessment included history taking (seizure type, onset, etiology and frequency, period of the treatment, type of antiepileptic drug usage), general and neurologic physical examination, electroencephalography (EEG), and magnetic resonance imaging (MRI) performance. Then, the patients were divided into two groups randomly (A and B).Group A was treated with Zonisamide while patients in group B received Pregabalin. We treated group A with capsules of ZNS (2-12 milligram per kilogram daily) as group B were treated with capsules of PGB (5-15 milligram per kilogram daily)divided in two or three doses in addition to prior medication. We assessed seizure frequency, severity, and duration during the 4 week interval from the beginning of treatment and compared the efficacy of each drug in the two groups. During follow-ups, seizure frequency or severity reduction equal and greater than 50%istermedas a response to the drug. A paired sample T-test, Z-test, and chi-square have been used in the statistical analysis. All of the ethical perspectives of this study have been confirmed by the Ethics Committee of Shahid Beheshti University of Medical Sciences. This study was registered in the Iranian Registry of Clinical Trial (IRCT) as IRCT2012091210508N4.

Results
In this study, 137 patients were enrolled and121 patients reached the final stage. is problematic as the performance of the approved firstline treatments does not significantly differ. The primary evaluation proceeding for a new antiepileptic drug implicates its efficacy confirmation as an add-on therapy for a decline in seizure frequency in patients who have intractable seizures (4)(5). Zonisamide (1,2 benzisoxazole-3-methane sulfonamide) is a new production antiepileptic drug authorized as monotherapy and adjunctive therapy of intractable partial epilepsies. Zonisamide (ZNS) is effective in children with generalized epilepsies, notably for myoclonic seizures. Chemical organization (non-arylamine sulfonamide) and various manners of antiepileptic activity make ZNS incomparable to other antiepileptic drugs(AEDs). The main biochemical effect of ZNS is voltage linked sodium and T-type calcium channel blocking; however, glutamate related synaptic stimulation decline, gamma-aminobutyric acid (GABA) release from the hippocampus, neuronal hyper synchronization suppression, hydroxyl and oxide radicals elimination, and erythrocyte carbonic anhydrase deterrence are the other mechanisms. ZNS is absorbed rapidly and reaches peak plasma concentrations in 2-6 h after oral consumption. Additionally, it has high (95%) bioavailability (6)(7)(8)(9)(10)(11). Pregabalin (PGB) has the structural equivalent of GABA but has no effects associated with GABA or GABA receptors (12).PGB is a selective high-propensity ligand for the α2-δ subunit of presynaptic voltage gated calcium channels. Intense binding to this channel diminishes calcium entrance at hyper excitable nerve terminations to lower the distribution of several neurotransmitters consisting of glutamate, norepinephrine, and substance P.A reduction of these neurotransmitters and neuronal excitability that this drug acts on leads to it as an anticonvulsant, analgesic, and anxiolytic efficacy (13)(14)(15)(16).It has a linear dose-concentration curve that is among the most effectual dose span (150-600 mg/day) and extensively absorbed after oral dosing with 90% bio availability that after1 h reaches peak plasma concentrations. PGB is much more vigorous (2 to 18 fold) than gabapentin between all seizure types tested (17).Efficacy of PGB as an add-on therapy for patients with refractory partial epilepsies was evaluated through several controlled trials (18)(19).

Discussion
This study showed that ZNS and PGB reduced greater than 50% of the seizure intensity in 40.2% and 45.8% of patients also had seizure frequency declinesof35.8% and 44.4%, respectively in which there was no significant superiority between these two novel anticonvulsants.  (20). ZNS effectiveness in the current assay is in agreement with Coppola et al and Stephen who declared a frequency decline of greater than 50% between 48.7-39% of patients, respectively (21)(22).No preference between these two drugs that we found is different from Claudia B et al and Yuen et al who estimated that with a ZNS retention rate of 31% compared to 24% for PGB after six months period (23)(24).In our review, the efficacy of both drugs has been diminished after six months of (

Author Contribution
Dr Taghdiri was responsible for revision, editing and study decision, Dr Bakhshande wrote the first draft of this manuscript, Dr Karimzadeh contributed in the collection of data, Other coauthors were involved in the data collection and interpretation all authors reviewed the draft of this article and agreed to submit of the manuscript. treatment towards one month of consumption. Loscher et al has observed that the efficacy of antiepileptic drugs decreased over time due to drug receptor sensitivity decreases that led to pharmaco dynamic tolerance that can further lead to loss of drug function completely or could interfere with other anticonvulsant activity via cross tolerance (25).Similar to our results, Arroyo et al stated that 43.5% of patients with refractory epilepsy responded to PGB therapy. Furthermore, this study found a dose-dependent response to this drug at the higher dose equal to 600 mg per day was quite effective (15).Terence et al examined the effects of lamotrigine compared with pregabalin on refractory partial seizures in a 17-week treatment period and concluded that PGB reduced greater than 50% of seizure intensity in 35.5% of cases toward the lamotrigine efficacy in 21.4% of patients (26).Lee et al observed seizure declines in 46.2% of patients after 13 weeks of PGB treatment, which confirmed our result (27). Elger et al detected PGB antiepileptic efficacy more than our results who treated patients with a constant dose of PGB (600mg/day) and later 12 weeks found 49.3% seizure improvement (19).This discrepancy may be due to a wide spectrum of PGB dosage (5-15mg/kg/day), which takes a few weeks to achieve a fixed amount of the drug's availability in patients. Pradeep found a significant PGB induced reduction in the frequency and severity of seizures of up to 56% among patients with various seizure types and those who had previously not responded to gabapentin had no response to PGB (28). Our study showed that three patients who had used gabapentin previously did not respond to PGB against Pradeep's results. The highest response to ZNS in our case was obtained in seizure types of infantile spasms (66.4%), myoclonic (54.5%), and generalized tonic clonic (50.9%) with no effect on mixed type seizures. Partial seizures (61.7%), tonic (55%), and generalized tonic clonic (40.9%) were the seizure kinds with the highest response to PGB in our patients with no effect on myoclonic seizure. PGB and ZNS had complication rate of 18.33-16.4%, respectively. Decreased appetite, impaired speech, ataxia, sigh, visual disturbances, hallucinations, and dizziness versus increased appetite, increased urination, hallucinations, and headache have been the most prevalent side effects of ZNS and PGB, respectively. All of our patients' complications